The invention aims to improve the manufacture of flexible goods, such as garments, through the temporary modification of the physical properties of the components to be assembled, facilitating their handling and manipulation later on in the manufacturing process. Attributes that can be affected by this process are the stiffness of the material, the presence of mechanical or physical markings, the density of the material, the air or fluid permeability of the material, the responsiveness of the material to magnetic fields, or the adhesive nature of the material.

Fibrous structures that exhibit a novel combination of properties and to methods for making such fibrous structures are provided.

Prepregs and laminates made from resin compositions having a free resin portion and a resin impregnated reinforcing material portion where the resin includes one or more base resins and one or more high Dk materials wherein the one or more high Dk materials are present in the resin composition in an amount sufficient to impart the resin composition with a cured Dk.sub.W that matches the Dk.sub.WR of a resin impregnated reinforcing material to which the resin composition is applied to within plus or minus () 15%.

Aspects herein relate to apparel items and apparel systems that utilize applied or printed foam nodes to provide, among other things, stand-off between an apparel item and a wearer's skin surface. One or more of the foam nodes, or areas of the textile surrounding the foam nodes, may be perforated to provide a fluid communication path between an inner-facing surface and an outer-facing surface of the apparel item. The communication path may be used to facilitate air exchange between the external environment and the wearer's body and/or to provide an exit path for moisture vapor generated by the wearer.

A reversible camouflage material including a textile layer having a woodland camouflage print thereon, an infrared suppressing layer, and a textile layer having a desert camouflage print thereon is provided. The infrared suppressing layer may include a polyurethane layer sandwiched between a carbon-containing ePTFE layer and an ePTFE layer. The carbon may be provided in an oleophobic layer on the ePTFE or within the ePTFE film. In one embodiment, the desert camouflage textile is absent and a coating composition that includes a colorant and infrared suppressive additives is applied to the outer surface of the ePTFE layer. The inventive camouflage material demonstrates camouflage concealment in the near IR (nIR) and short wave infrared (SWIR) wavelengths of the electromagnetic spectrum. In addition, the camouflage material is highly breathable and lightweight. The material is particularly suitable for making reversible camouflage garments such as jackets and pants.

Curable prepregs possessing enhanced ability for the removal of gases from within prepregs and between prepreg plies in a prepreg layup prior to and/or during consolidation and curing. Each curable prepreg is a resin-impregnated, woven fabric that has been subjected to a treatment to create an array of openings in at least one major surface. Furthermore, the location of the openings is specific to the weave pattern of the fabric.

The application relates to a textile composite article comprising at least one textile made of fibers/filaments, especially in the form of yarns, having a partially internal discontinuous pattern of an impregnating material which penetrates at least partially a cross section of said first textile leading to impregnated areas and non-impregnated areas in accordance with the discontinuous pattern. The non-impregnated areas are air permeable and may comprise a functional coating. Such a treated textile composite is air-permeable and water vapor permeable and has reduced water absorption and re-dry time. In one embodiment the textile composite article shows an additional enhanced flame protection.

A high-quality multilayer thermoplastic-resin-reinforced sheet material having excellent mechanical properties and drapeability in which a thermoplastic resin excellent in recycling efficiency and shock resistance is used as a matrix. A thermoplastic-resin multilayer reinforced molding formed of the multilayer thermoplastic-resin-reinforced sheet material, in which the high quality and the mechanical properties are maintained. The multilayer thermoplastic-resin-reinforced sheet material (11) is formed by stacking thermoplastic-resin-reinforced sheet materials (21A) to (21D) each formed of a reinforcing-fiber sheet material (31), consisting of a plurality of reinforcing fibers (31f) arranged in a predetermined direction in a sheet-like structure, and a thermoplastic-resin sheet material (41) joined to a surface of the reinforcing-fiber sheet material (31), and stitching them together with an integration thermoplastic-resin fiber tow (51) composed of the same material as the thermoplastic-resin sheet material (41). The reinforcing-fiber sheet materials (31) are stacked such that their reinforcing directions are multiaxial.

A stretchable ink composition comprising a polyester; a polyurethane elastomer; water; a co-solvent; an optional surfactant; and an optional colorant.

The invention aims to improve the manufacture of flexible goods, such as garments, through the temporary modification of the physical properties of the components to be assembled, facilitating their handling and manipulation later on in the manufacturing process. Attributes that can be affected by this process are the stiffness of the material, the presence of mechanical or physical markings, the density of the material, the air or fluid permeability of the material, the responsiveness of the material to magnetic fields, or the adhesive nature of the material.